The 2Nd Pharmacy and Advanced Pharmaceutical Science
PROSEEDING INTERNATIONAL CONFERENCEE
“The 2 nd Pharmacy and Advanced Pharmaceutical Science”
Book I : Pharmaceutical Science First edition, November 2011
Project Editor: Triana Hertiani Designers: Puma Arfah and Firman Romansyah
Copyright © 2011 Faculty of Pharmacy
Published by: Faculty of Pharmacy Universitas Gadjah Mada Sekip Utara, Yogyakarta, 55281,
Indonesia
Editor : Roony Martien : Zullies Ikawati Chift Editor : Triana Hertiani
ISBN : 978-979-955-1
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Jl. Lonawu 23 Yogyakarta - Indonesia Preface from the Editor
In order to disseminate to broader community, a proceeding consisted of scientific papers presented at the 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences, held in Yogyakarta, Indonesia, 19 – 20 July 2011, is produced. The proceeding is divided into two books i.e. Clinical and Social Pharmacy and Pharmaceutical Science and Technology.
The conference was organized by the faculty of Pharmacy Universitas Gadjah Mada in collaboration with the Nara Institute of Science and Technology and Deutscher Akademischer Austausch Dienst-German Academic Exchange Service. This event was part of the faculty’s 65 th Anniversary celebration as well as the 62 th Anniversary of the Universitas Gadjah Mada. In this conference participants from 6 countries have participated of which 14 lectures within the field of Pharmaceutical care and sciences were presented by our invited speakers, followed by presentation of 160 researchers in form of oral and poster presentation. On behalf of the organizing committee, I would like to thank all invited speakers and presenters for participating the in International Conference on Pharmacy and Advanced Pharmaceutical Sciences and for giving valuable contribution to this proceeding
Acknowledgements are addressed to the Rector of Universitas Gadjah Mada, the Nara Institute of Science and Technology, Japan, Deutscher Akademischer Austausch Dienst-German Academic Exchange Service in collaboration with Federal Foreign Office as well as all sponsors for the nice collaboration in bringing forth the conference. Furthermore, personally, I would like to express my deep appreciation to the members of the Organizing Committee for the good teamwork and the great effort to bring success to the conference and in producing the proceeding. Finally, I hope this proceeding will give a remarkable contribution to broad scientific research, especially in the field of pharmacy and pharmaceutical sciences.
Yogyakarta, July 2011
Dr. rer. nat. Triana Hertiani, M.Si., Apt.
The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences i Organizing Commitee
Steering Committee Prof. Dr. Marchaban, DESS., Apt. (Pharmacy, UGM, Indonesia) Prof. Dr. Subagus Wahyuono, M.Sc., Apt. (Pharmacy, UGM, Indonesia) Prof. Dr. Edy Meiyanto, M.Si., Apt. (Pharmacy, UGM, Indonesia) Dr. Akhmad Kharis Nugroho, M.Si., Apt. (Pharmacy, UGM, Indonesia) Prof. Dr. Djoko Wahyono, Apt. (Pharmacy, UGM, Indonesia) Prof. Dr. Zullies Ikawati, Apt. (Pharmacy, UGM, Indonesia) Prof. Dr. Aporanee Chaiyakum (Thailand) Prof. Masashi Kawaichi, P.hD. (NAIST, Japan) Chairman Dr. rer. nat. Triana Hertiani, M.Si., Apt. Secretary Dr. rer. nat. Ronny Martien, M.Si. Dr. rer. nat. Rr. Endang Lukitaningsih, M.Si., Apt. Treasure Yuliana Setiarini, S.Mn
ii The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences Welcome Message from Organizing Committee
Distinguished Ladies and Gentlemen, On behalf of the Scientific and Organizing Committee, it is such a great pleasure for me to welcome all participants to Yogyakarta, to the 2nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences 2011.
The conference is organized by the faculty of Pharmacy Universitas Gadjah Mada in collaboration with the Nara Institute of Science and Technology and Deutscher Akademischer Austausch Dienst-German Academic Exchange Service. This event is as part of the faculty’s 65th Anniversary celebration as well as the 62th Anniversary of the Universitas Gadjah Mada. In this conference participants from 7 countries have participated of which 14 lectures within the field of Pharmaceutical care and sciences will be presented by our invited speakers, followed by presentation of 160 researchers in form of oral and poster presentation. Herewith we would like to express our gratitude to all speakers and presenters for joint us today to share advance knowledge and expertise in this scientific event.
The Organizing Committee gratefully acknowledges the Rector of Universitas Gadjah Mada, the Nara Institute of Science and Technology, Japan, Deutscher Akademischer Austausch Dienst-German Academic Exchange Service in co-operation with Federal Foreign Office well as all sponsors for the nice collaboration in bringing forth this conference. Furthermore, personally, I would like to express my deep appreciation to the members of the Organizing Committee, for the good teamwork and their great effort to bring success to the conference.
Finally, I wish all participants could benefiting from the Conference and have anenjoyable moments in Yogyakarta
Thank you very much
The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences iii Remarks of the Dean of Pharmacy Faculty UGM Prof. Dr. Marchaban, DESS., Apt
Assalamu'alaikumwr. wb. Distinguished ladies & gentlemen. First of all, on behalf of the Faculty of Pharmacy Universitas Gadjah Mada, I would like to welcome to all of you in Yogyakarta, thank you very much for your attention to come and to attend the 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences. I hope we are all in health condition.
Ladies and gentlemen, The conference is organized by the Faculty of Pharmacy UGM in collaboration with the Nara Institute of Science and Technology (NAIST) Japan and DAAD, Germany and held as part to celebrate the 65 th anniversary of the Faculty of Pharmacy UGM and the 62 th anniversary of Univeristas Gadjah Mada. In the conference, I hope we can communicate our recently information concerning social / clinical pharmacy and pharmaceutical sciences. I hope the conference will be very fruitful, very useful for all of us. I address special thanks to the plenary speakers both from domestic and abroad, the oral and poster presenters, as well as to those who come just to know the development of clinical or social pharmacy and pharmaceutical science. Your willingness to come, to communicate and to share your experiences is highly appreciated. Therefore, during almost whole day discussing scientific matter related to human health and welfare, I hope we can make a wonderful opportunity to make a scientific closer relationship while we enjoy the cultural performances of Yogyakarta presented by our pharmacy student. Finally, I hope that this meeting will give benefits to all of us, and we may see each other again in a similar event in the near future.
I look forward to thank you all for attending this event Wassalamu’alaikum warahmatullahi wabarakatuh,
iv The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences Opening Remarks by Rector of Universitas Gadjah Mada Prof. Ir. Sudjarwadi, M. Eng., Ph. D Bismillahirrahmaanirraahim Assalamu’alaikum wr wb Chairman of Presidential Advisory Board, Prof. Dr. Emil Salim
Distinguished guests, ladies and gentelmen, Good morning. It’s trully a previlege for me to be able to welcome all of you to The Second International Conference on Pharmacy and Advance Pharmaceutical sciences in Yogyakarta with theme “Bridging Science to Pharmacy Practice” that is organized in cooperation with DAAD and the Nara institute of Science and Technology Japan to celebrate the 65th Anniversary of Faculty of Pharmacy UGM. This scientific gathering is aimed to update recent findings in pharmacy and advanced pharmaceutical sciences. It is expected that recearchers, academia, practitioners, policy makers as well as students and other participants can learn and share witch each other about the lastes developement in pharmacy and pharmaceutical science. This meeting is much required to develop the participant’s knowledge in the science and address the pharmacological issues that arise. Moreover, in the fast developing condition of pharmaceuticals due to the increasing demands and mobility of people around the world and identifications of diseases that emerge, it is highly important for scientists to better contribute therir knowledge to the wider public. Participants here all invited to seek for and introduce new ways on how to bring this knowledge to the pharmacy practices to be able to benefit the public. I hope that in these two days you will all be involved in insightful and inspiring discussions that can produce such new ways, new findings and alternatives as well as solutions to current problems in the are of pharmacy. It is my belief that all of us will bwnefit much from this special meeting. I wiss you have a good and enjoyable gathering while in Jogja. Lastly, my sincere thanks and deep appreciation go to everyone who have made this sminar a success.
Thank you very much. Wassalamu’alaikum wr wb.
The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences v CONTENTS
Preface from the Editor i
Organizing Committee ii
Welcome Message Proceeding International Conference on Pharmacy and Advanced Pharmaceutical Sciences From the committee iii
Remark of the Dean Faculty iv
Opening Remarks by Rector of Universitas Gadjah Mada v
CONTENT vi
ANTIOXIDANT AND CYTOTOXIC ACTIVITIES OF ETHANOLIC EXTRACT OF Hedyotis 1 – 5 corymbosa (L.) LAM ON BREAST CANCER CELL LINE OF T-47D Churiyah, Tarwadi, Susi Kusumaningrum and Fery Azis Wijaya
MOLECULAR DYNAMIC SIMULATION OF SIRNA AND MODIFIED SIRNAS 6 – 10 Elisabeth Catherina W., Imam Siswanto, Livia Cahyono, Suryani Widya O
FAST DISSOLVING TABLET FORMULATION OF METOCLOPRAMIDE HYDROKLORIDE BY 11 – 18 ADDITION OF KOLLIDON CL-F AS SUPERSDISINTEGRANT Dolih Gozali, Fikri Alatas, and Fitrie Widiastuti
IN VITRO ANTIBACTERIAL ACTIVITY OF NIGELLA SATIVA SEEDS AGAINST STREPTOCOCCUS 19 – 22 PYOGENES Endang Dwi Wulansari, Yully Sri Mulyati, Herry Pratikno
EXTRACTION OF ANTIOXIDANT FROM SHIITAKE MUSHROOM ( LENTINULA EDODES ) ~AN 23 – 27 INITIAL STUDY TO FIND NEW ANTIOXIDANT SOURCE~ Erni Johan, Deden Saprudin, Zaenal Abidin, Toru Yamamoto, Naoto Matsue and Teruo Henmi
SYNTHESIS AND ANTICANCER ACTIVITY OF ANTIMYCIN A 3 ANALOGUE 28 – 33 Ade Arsianti, Hiroki Tanimoto, Tsumoru Morimoto and Kiyomi Kakiuchi
INTERACTION ANALYSIS OF HEMIN WITH ANTIMALARIAL ARTEMISININ GROUP THROUGH 34 – 34 IN-SILICO AND IN-VITRO APPROACH Surya Dwira, Fadilah and Aryo Tedjo
DETERMINATION OF ARTEMISININ IN ETHYL ACETATE FRACTION FROM THE STEMS, ROOTS, 40 – 44 LEAVES AND FLOWERS OF MUTANT STRAINS OF Artemisia vulgaris L. BY HPLC Faridah, Aryanti and Desi Nadya Aulena
CYTOTOXICITY EFFECT OF ETHANOLIC EXTRACT OF TYPHONIUM FLAGELLIFORME (LODD.) 45 – 48 BLUME ON BREAST CANCER CELL OF MCF-7 AND NORMAL CELL OF CHO-T120 Fery Azis Wijaya, Churiyah, Tarwadi, Olivia Bunga P and Arifin Surya Dwipa Irsyam
vi The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences SCREENING OF BIOACTIVE COMPOUNDS FROM OLEA EUROPAEA AS GLUTAMINE 49 – 54 SYNTHETASE A INHIBITOR OF BACTERIAL MENINGITIS HAEMOPHILUS INFLUENZAE TYPE B THROUGH MOLECULAR DOCKING SIMULATION Hadi Sunaryo and Rizky Arcinthya Rachmania
FLAVOURING AGENT OPTIMATION OF Kalanchoe pinnata , PERS. CRUDE EXTRACT 55 – 59 LOZENGES Kartiningsih, Lusiana Ariani, Novi Yantih and Firdaus
EFFECTS OF FERTILIZERS AND DIFFERENT LIGHT INTENSITY ON GROWTH AND 60 – 64 ANDROGRAPHOLIDE CONTENT OF SAMBILOTO ( Andrographis paniculata . NESS) Nurhayu Malik, Kumala Dewi, and Bambang Hendro Sunarminto
ACUTE TOXICITY TEST AND LOZENGES TABLET FORMULATION OF Kalanchoe pinnata P. 65 – 70 ETHANOL EXTRACT Lestari Rahayu, Veranty Rahmah Melani, Kartiningsih and Firdaus
SIMULTANEOUS DETERMINATION OF CAFFEINE AND NICOTINAMIDE IN ENERGY DRINKS BY 71 – 75 FIRST-ORDER DERIVATIVE SPECTROPHOTOMETRY Liliek Nurhidayati and Nurdiani
MODULATION OF MACROPHAGE IMMUNE RESPONSES OF EXTRACT MIXTURE OF BETEL 76 – 81 LEAF ( Piper betle , L), GAMBIER ( Uncaria gambier , ROXB) AND CALCIUM HYDROXIDE ON PHAGOCYTIC CELLS OF MICE Muhammad Yanis Musdja, Amir Syarif, Ernie Hernawati Poerwaningsih and Andria Agusta
THE TLC PROFILE CHARACTERIZATION OF ETHANOL EXTRACT OF KALANCHOE PINNATA 82 – 85 WITH OR WITHOUT DRYING BY FREEZE AND SPRAY DRYING Novi Yantih, Kartiningsih, Puji Asriyanti and Nurul Hidayatri
FORMULATION DEVELOPMENT AND EVALUATION OF CLARITHOMYCIN GEL FOR INJECTION 86 – 90 INTO PERIODONTAL POCKET A. Raksasiri, K. Torrungruang and G.C. Ritthidej
Α-GLUCOSIDASE INHIBITORY AND ANTIOXIDANT ACTIVITIES OF ASPERGILLUS TERREUS 91 – 95 MC751 Rizna Triana Dewi, Sanro Tachibana, Kazutaka Itoh and LBS Kardono
FINGERPRINT STUDY OF Foenicullum vulgare MILL. FOR STANDARDIZATION OF 96 – 100 TRADITIONAL MEDICINE EXTRACT Sri Astuti and Sri Murhandini
STERILIZATION HEAT EFFECT TO GEL BASE PHYSICAL PROPERTIES: ELLING AGENT CMC NA 101 – 105 AND CA ALGINATE CASE STUDY Sri Hartati Yuliani, Achmad Fudholi, Suwijiyo Pramono and Marchaban
SAFETY EVALUATION OF URIC ACID-LOWERING NATURAL PRODUCT IN RAT: SUBCHRONIC 106 – 112 16-WEEK TOXICITY WITH BLOOD BIOCHEMISTRY AS PARAMETER Sri Ningsih, Susi Kusumaningrum, Firdayani, Agung Eru Wibowo and Kurnia Agustini
The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences vii FINGERPRINTS STUDY OF Guazumaulmifolia LAMK LEAVES FOR STANDARDIZING 113 – 118 TRADITIONAL MEDICINE EXTRACT Sri Nurhayati and Sri Murhandini
PROTECTIVE EFFECT OF EGCG ON OXIDATIVE DAMAGE IN ENDOTHELIAL PROGENITOR 119 – 128 CELLS Wahyu Widowati, Rahma Micho Widyanto, Dian Ratih Laksmitawati, Hana Ratnawati, Winsa Husin, Indra Bachtiar
COMPARISON ACTIVITIES OF LEAVES AND STEM BARK OF ETHYL ACETATE EXTRACT FROM 129 – 133 BAWANG HUTAN PLANT ( Scorodocarpus borneensis Becc. (OLACACEAE) Wiwi Winarti, Rudy Kartika and Partomuan Simanjuntak
DISSOLUTION PROFILE OF ACETAMINOPHEN TABLET AND IBUPROFEN TABLET WITH L–HPC 134 – 137 21, L–HPC 22, AND SODIUM STARCH GLYCOLATE AS DISINTEGRANT IN WET GRANULATION METHOD Yoga W. Wardhana and Dradjad Priambodo
PREPARATION AND CHARACTERIZATION OF PROTEIN-LOADED CHITOSAN NANOPARTICLES 138 – 143 WITH ALUMINIUM HYDROXIDE GEL AS NASAL DELIVERY SYSTEM Anawatch Mitpratan, Sumana Khomvilai, Vimolmas Lipipun and Garnpimol C. Ritthidej
REDUCTION OF BLOOD GLUCOSE LEVELS OF ETHANOLIC EXTRACT OF BUNGUR 144 – 147 (Lagerstroemia speciosa [L.] PERS) LEAVES IN ALLOXAN INDUCED DIABETIC RATS Angelica Kresnamurti and Agnes Sartika Husin
METAL CHELATING ACTIVITY OF RICE BRAN AND RICE HUSK 148 – 152 Kartini, Rosi Yunita Djoenedi and Azminah
LONG TERM EFFECT OF ETHANOLIC EXTRACT OF FENUGREEK SEEDS ( Trigonella foenum- 153 – 158 graecum L.) ON WHITE RAT KIDNEY FUNCTION Kurnia Agustini, Sriningsih and Lestari Rahayu
MOLECULAR DOCKING OF SEVERAL COMPOUNDS OF BUNGUR ( Lagerstroemia speciosa [L.] 159 – 166 PERS) LEAVES TO (IGF-1R) RECEPTOR TYROSINE KINASE WITH MOLEGRO VIRTUAL DOCKER Lanny Hartanti, Henry Kurnia Setiawan and Angelica Kresnamurti
THE EFFECT OF GIVING TOMATO JUICE ( Lycopersicum esculentum MILL. ) TO THE AMOUNT 167 – 171 OF PLATELETS, BLEEDING TIME AND COAGULATION TIME OF WHITE MALE RATS OF WISTAR STRAIN Sri Haryanti , Yulia Anis Mutolifah and Noor Wijayahadi
DOCKINGSTUDIES RHINACANTHIN DERIVATIVES ASPOTENTIALINHIBITOR OF POLO-LIKE 172 – 177 KINASE 1 (Plk1) Susi Kusumaningrum,Harry Noviardi,Firdayani and B.S. Ari Sudarmanto
INTERACTION BETWEEN BETAMETHASONE-17-VALERATE AND NEOMYCIN SULFATE 178 – 185 Fikri Alatas, Sundani Nurono Suwandhi and Agung Kisworo
HEPATOPROTECTIVE EFFECT OF WARU ( Hibiscus tiliaceus ) LEAVES INFUSION IN 186 – 190 PARACETAMOL INDUCED HEPATOTOXIC RATS Harwoko and Esti Dyah Utami viii The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences ISOLATION OF ANTIBACTERIAL COMPOUND FROM MARINE SPONGE Stylissa carteri 191 – 195 AGAINST GINGER BACTERIAL PATHOGEN ( Ralstonia solanacearum ) Sri Agustina S, Dian Handayani and Netty Suharti
SYNTHESIS HEPTANTETRA-BENZYLCATECHIN AND TOXICITY TESTS ON BRINE SHRIMP 196 – 200 LETHALITY TEST (BSLT) Sri Hartati, Yulia Anita, Nurul Fajria Purbarani and M. Hanafi
MUCOLYTIC ACTIVITY OF ETHANOLIC EXTRACT OF RED HIBISCUS FLOWERS ( Hibiscus rosa- 201 – 207 sinensis L.) ON BOVINE INTESTINE MUCUS BY IN VITRO METHOD Mimiek Murrukmihadi, Subagus Wahyuono, Marchaban, Sudibyo Martono and Yanti Lande
THE EFFECT OF ADMINISTRATION OF N-HEXANE EXTRACT OF KEMBANG BULAN [Tithonia 208 – 212 diversifolia (Hemsley)A.Gray] LEAF TO ALLOXAN DIABETES MICE Ros Sumarny and Arie Soetjipto
KEY WORDS INDEX 213 – 217
DISCUSSION 218
The 2 nd International Conference on Pharmacy and Advanced Pharmaceutical Sciences ix Churiyah, et al.
ANTIOXIDANT AND CYTOTOXIC ACTIVITIES OF ETHANOLIC EXTRACT OF HEDYOTIS CORYMBOSA (L.) LAM ON BREAST CANCER CELL LINE OF T-47D
Churiyah 1*, Tarwadi 1, Susi Kusumaningrum 1 and Fery Azis Wijaya 2 1. Mammalian Cell Culture Laboratory LAPTIAB, Puspiptek SERPONG, Tangerang BANTEN 2. Centre for Pharmaceutical and Medical Technology BPPT, BPPT Building II, 15 th Floor, Jl. MH Thamrin 8 Jakarta 10340, Telp/Fax: +62 21 3169505, email: [email protected]
ABSTRACT
Herb of Hedyotis corymbosa (L.) Lam (known as Rumput Mutiara) is member of Rubiaceae and traditionally have been used for fever treatment. This medicinal herb is also believed has potency as hepatoprotector and anticancer activities. In order to evaluate its antiproliferative activity in vitro, ethanolic extract of H. corymbosa (L.) Lam was tested against breast cancer cell line of T 47D using enzymatic assay of 3 (4,5 dimethylthiazol 2 yl) 2, dipheniltetrazolium bromide (MTT). In addition, its antiradical scavenging activity was also determined using 1,1 Diphenyl 2 picryl hydrazyl (DPPH) method. The result showed that Hedyotis corymbosa herbs which were extracted with 70% ethanol, significantly inhibit T47 D cell proliferation where IC 50 value was 119 g/ml. Moreover, the extract was also exhibit a potential antioxidant activity. However, it needs further assay to determine in which mechanism the extract inhibit cancerous cell proliferation. Key words : Hedyotis corymbosa , cytotoxicity, MTT, DPPH, and antioxidant activity.
INTRODUCTION Rumput mutiara ( Hedyotis corymbosa (L.) Lamk is one of the important medicinal plants has been used as antitumor drugs which described the immunocompetent activity to prevent haematopoietic damage when used in combination with radiotherapy (Yang et al .1997). The ethanolic extract of this plant exhibit antihepatotoxic which showed decreasing of SGOT and SGPT levels and stimulated liver cell proliferation of acetaminophen induced rabbit (Tatang et a l.2006). Then the methanolic extract its produced significant hepatoprotective effects as evidenced by decreased serum enzyme activities, SGPT, SGOT, SAKP and serum bilirubin and an almost normal histological architecture of the liver in treated mice compared to the controls. And the extract also shortened hexobarbitone induced sleeping time in mice, besides showing significant antilipid peroxidant effect in vitro (Sadasivan et a l. 2006). Subsequently, the ethanolic extract also its has a potential activity to be developed as co chemotherapeutic agent, and the combination of this extract with doxorubicin induced apoptosis and decreased Bcl 2 expression. (Haryanti et al . 2009). Combination of Hedyotis corymbosa , Andrographis paniculata extracts and curcumin indicated an effective of herbal anti malarial drugs (Misra et al . 2009). Beside exhibit anti tumor and hepatoprotective activitivy, the ethanolic extract of rumput mutiara also has an antioxidant activity similar to α tocopherol using thiobarbituric acid (TBA) method (Amelia, 2006). Currently, methanolic extract its exhibit high antiradical activity against DPPH, ABTS, nitric oxide and hydroxyl radicals, the antioxidant activity of the extract was comparable with that of standard butylated hydroxyl toluene (BHT), and the main antioxidant compound was polyphenol (Sasikumar et al. 2010). The aim of the research was to evaluate its antiproliferative activity in vitro of ethanolic extract of H. corymbosa (L.) Lam against breast cancer cell line of T 47D using enzymatic assay of 3 (4,5 dimethylthiazol 2 yl) 2, dipheniltetrazoli um bromide (MTT), and determined of its extract as antiradical scavenging activity using 1,1 Diphenyl 2 picryl hydrazyl (DPPH) method .
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 1 Antioxidant and Cytotoxic Activities……….
METHODOLOGY Extraction of rumput mutiara herb ( Hedyotis corymbosa L.) The dried Rumput mutiara herbs were grinded and macerated with ethanol 70% solvent. Then, filtrate were collected and evaporated by vacuum rotary evaporator to get the viscous extract.
Cytotoxic analysis Human Breast cancer cell line of T 47D was maintained as monolayer cultures in RPMI 1640 medium, supplemented with 1% antibiotics (50 IU/ml penicillin and 50 g/ml streptomycin) and 10% heat inactivated of fetal bovine serum, in a humidified incubator containing 5% CO2 at 37°C. Subcultures were obtained by trypsin treatment of confluent cultured. The cells were seeded in 100 l of medium in 96 microwell plate at a density of 5 x 10 3 cells/well, and the plates were placed in a 37°C, 5% CO2 incubator. One day later the cell culture was added with 100 l/well medium containing the indicated concentrations (0, 10, 20, 50, 100, and 250 g/ml) of extract in triplicate. After 24 hours of treatment, washed twice with psosphate buffer saline, then the medium was changed and 100 L MTT [3 (4,5 dimethyi 2 thiazolyl) 2, 5 diphenyl 2H tetrazolium bromide] 0.5 mg/mL was added and maintained at 37ºC in 5% CO2 incubator for 4 hours to allow MTT to be converted to formazon crystals by reacting it with metabolically active cells. The viable cells were directly proportional to the production of formazan. The reaction was stopped by adding SDS (sodium dodecyl sulfate) 10%, and the cell viability was measured at 570 nm using a plate reader. IC50 value of extract was determined based on the equation of linier regression of log concentration vs % cell viability (Wang et al. 2000).
DPPH antiradical scavenging assay Assay of the antioxidant activity of extracts carried out by spectrophotometric methods using 1,1 diphenyl 2 picrylhydrazyl (DPPH). As positive controls used vitamin C (ascorbic acid) and vitamin E (α tocopherol). Methanolic extracts of Rumput mutiara herbs was prepared with concentrations of 1000 ppm, and 0.0079% DPPH solution (7.9 mg in 100ml methanol). Later, 1000 l of each sample solution with a concentration of 5.10, 25, 50 and 100 ppm was mixed with 500 l of DPPH solution in the cuvet. Positive control of vitamin E ( α tocopherol) was prepared at the same concentration (5.10, 25, 50 and 100 ppm) and vitamin C (ascorbic acid) with a concentration of 4, 6, 8, 10 and 12 ppm. Observations were made at minutes 1, 10, 20, and 30, using UV Vis sprektrofotometer Genesys 20 equipment at a wavelength of 517 nm. The antioxidant activity was calculated based on the decrease in DPPH absorption due to the addition of the test sample, as follows: Radical scavenging activity (%) = (Abs DPPH Abs sample) x 100% Abs DPPH
RESULTS AND DISCUSSIONS Cytotoxic activity Observations cytotoxicity testing was intended to observe the inhibition of cell proliferation and obtain IC50 values.. Observations after 24 hours of extracts treatment showed cytotoxic effects of extracts on T 47D cells with IC 50 value of 119 ppm and in normal CHO cells around 375.74 ppm, whereas on the positive control of cisplatin IC 50 about 17 18 ppm on both two cells tested (Table 1).
Tabel 1. The I C50 value of ethanolic extract of Rumput mutiara ( Hedyotis corimbosa ) against T 47D cancer cells and normal CHO cells.
IC (ppm) Extract / positive control 50 T47D cell CHO cell Rumput mutiara extract 119 375.74 Cisplatin 17,19 18,43
2 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Churiyah, et al.
Tabel 2. Proliferative inhibitory effect of ethanolic extract of Rumput mutiara ( Hedyotis corimbosa ) against T 47D cancer cells and normal CHO cells.
Extract concentrations (ug/ml) Proliverative inhibition (%) T- 47D cell CHO cell 0 100 100 10 3.64 7.01 20 5.19 2.72 50 17.55 12.62 100 39.62 18.49 250 47.57 28.55
From the test results showed the selective properties of the extract where the cytotoxic effects of extracts of T 47D cancer cells is higher than the normal CHO cells, although lower than the positive control of cisplatin. Cytotoxic activity of extracts also proven by inhibitory effect of cell proliferation in both cell tested, CHO cell and T47D cell (Table 2). Increasing the extract concentration from 10 ppm to 250 ppm on T 47D cell showed a significant increased in proliferation inhibitory effect from 3.64% to 47.57%. In contrast, at the lower concentration of extract was not exhibit any inhibitory effect on normal cell CHO proliferation, the inhibitory effect of normal occurred after addition of 100 and 250 ppm of extract, which inhibits proliferation of 18.49 28.55% compared to untreated cell. In our research was not determine yet how the mechanism of the extract inhibit cell proliferation, but another research revealed that the extract exhibit apoptotic cell on different cancer cell. Ethanolic extract of Rumput mutiara induced apoptotic in breast cancer cell MCF 7, which stained with acridine orange ethidium bromide and observed under fluorescence microscope. All cells in control cell gave green fluorescence showing there was no death cell. The extract treatment caused some cells gave orange and red fluorescence which signed the increasing of cell membrane permeability as the indicator of apoptosis. The nuclear of several cells were fragmented and formed apoptotic bodies (Haryanti et a l. 2009).
DPPH antiradical scavenging assay The DPPH antiradical scavenging activity of Rumput mutiara ( Hedyotis corymbosa L.) extract observed in the first minute and 10 minutes incubation showed that the longer the incubation time increased radical scavenging activities, likewise increasing the concentration of extracts also increased radical scavenging activity specially in the concentration 25ppm – 100 ppm of extract (Figure 1). Furthermore observation in 20 minutes and 30 minutes incubation showed the same pattern where the increasing incubation time and extract concentration increased radical scavenging activities (Figure 2).
Figure 1. DPPH antiradical scavenging activity of Rumput mutiara ( Hedyotis corymbosa L.) extract compared with Vitamin E and vitamin C : a. 1 st minutes observation, b. 10 th minutes observation.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 3 Antioxidant and Cytotoxic Activities……….
At the end of assay the activities of rumput mutiara extract still lower that both of positive control Vitamin E and Vitamin C even at 100 ppm of extract. May be increasing the extract concentration would be increase the radical scavenging activity. In this research the highest concentration of extract treated was 100 ppm, another researcher used the higher concentration until 500 ppm and 1000 ppm. The methanolic extract oh this plant at 1000 ppm caused significant elevation of scavenging activity on DPPH radical comparable to 1000 ppm of that positive control of butylated hydroxyl toluene ( BHT) (Sasikumar et al ., 2010).
Figure 2. DPPH antiradical scavenging activity of Rumput mutiara ( Hedyotis corymbosa L.) extract compared with Vitamin E and vitamin C : c. 20 st minutes observation, b. 30 th minutes observation.
Previous research comparing antioxidant activities of coronet and root of ethanolic extract with a tocopherol using thiobarbituric acid (TBA) method which based on the specific reaction between TBA and malondialdehyde (MDA). The addition of coronet and root extract inhibit the rate of MDA formation, that mean improved the antioxidant activity. The result indicated that 500 ppm and 200 ppm coronet extract and 500 ppm extract showed similar inhibitory effect to 200 ppm α tocopherol on MDA formation (Amelia, 2006).
CONCLUSION 1. The ethanolic extract of Hedyotis corymbosa herbs has selective properties which significantly inhibit T47 D cell proliferation, but less toxic on normal cell line CHO 2. The extract was also exhibit a potential antioxidant activity on DPPH antiradical scavenging, although at 100 ppm the activity was still lower than Vitamin E (α tocopherol) and Vitamin C (ascorbic acid). 3. it needs further assay to determine in which mechanism the extract inhibit cell proliferation.
REFERENCES Amelia, G., 2006, Potency of Pearl Grass ( Hedyotis corymbosa (L.) Lam. ) as Natural Antioxidant (Thesis), Bogor : Institut Pertanian Bogor. Haryanti, S., Junedi, S., Meiyanto, E., 2009, Ethanolic Extract of Hedyotis corymbosa L. Increases Cytotoxic Activity of Doxorubicin on MCF 7 Breast Cancer Cell, Indonesian Journal of Biotechnology , 14 (1), 1146 1154. Mishra, K., Dash, A.P., Swain, B.K., Dey, N., 2009, Anti malarial activities of Andrographis paniculata and Hedyotis corymbosa extracts and their combination with curcumin, Malar J. 2009; 8: 26. Sadasivan,S., Latha, P.G., Sasikumar J.M., Rajashekaran, S., S. Shyama, S., l b and V.J. Shine, V.J., 2006, Hepatoprotective studies on Hedyotis corymbosa (L.) Lam. Journal of Ethnopharmacology 106(2), 245 249.
4 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Churiyah, et al.
Sasikumar, J.M., Maheshu, V., Aseervatam, G.S.B., and Darsini, D.T.P., 2010, In vitro antioxidant activity of Hedyotis corymbosa (L.) Lam. aerial parts. Indian Journal of Biochemistry and Biophysics, 47, 49 52. Sopandi, T., Setiawan, I., Wardah, 2006. Iridoid Rumput mutiara (Hedyotis corymbosa Lamk.) sebagai antihepatotoksik terhadap kerusakan hati akibat acetaminophen, SAINTEK 10(2),129 137. Wang, H., Gao, J., Ng, T.B., 2000. A new lectin with highly potent antihepatoma and antisarcoma activities from the oyster mushroom Pleurotus ostreatus. Biochemical and Biophysical Research Communications, 275:810 816. Yang, J.J., HSU, H.Y., HO, Y.H., LIN, C.C., 1997, Comparative study on the immunocompetent activity of three different kinds of Peh Hue Juwa Chi Cao, Hedyotis diffusa , H. corymbosa and Mollugo pentaphylla after sublethal whole body x irradiation. Phytotherapy research, 119(6), 428 432.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 5 Elisabeth Catherina W, et al.
MOLECULAR DYNAMIC SIMULATION OF SIRNA AND MODIFIED SIRNAS
Elisabeth Catherina W. 1* , Imam Siswanto 2, Livia Cahyono 1, Suryani Widya O.1 1.Widya Mandala Catholic University 2.Airlangga University, *Corresponding author: [email protected]
ABSTRACT
Short interfering RNA (siRNA), the active agent of RNA interference, shows promise of becoming a valuable tool in both basic and clinical research. RNAi has been used to prove that RNA molecules were behind some gene silencing. Application of siRNAs in vivo and their possible use as therapeutics still face several critical hurdles, among others, the stability. Many efforts have been comprehensively done to address this issue, for instance by chemical modifications and various mutations. In the present work, we compare the stability of siRNA (PDB entry:1SI3) with modified siRNA by replacing the non canonical end base pair C U with the canonical base pair C G and dangling ends using molecular dynamic simulation. Our results showed that the modified siRNA exhibited significantly good stability compared with the wild type during 10 ns simulation time. This great improvement indicated the role of end base pair and dangling ends in the stability of siRNA duplex. Key words: md simulations, siRNA, canonical base pair, RNA stability
INTRODUCTION The substantial progress in biology in recent decades has been the knowledge that small RNAs can affect gene expression. It begins, when Andrew Fire, Craig Mello and colleagues announced their finding of RNA interference (RNAi), the silencing of gene expression by double stranded RNA molecules, in nematode worms ( Caenorhabditis elegans ) (Fire, 1998). It was reported that double stranded RNAs (dsRNAs) can trigger silencing of com plementary messenger RNA sequences. Shortly afterwards, short dsRNAs or short interfering RNAs (siRNAs) were created artificially and used to show that this process also happens in mammalian cells, usually, but not always, without triggering the innate immune system, which normally recognizes RNAs as part of an antiviral defence mechanism (Cullen, 2009). RNA based therapeutics is one of the most promising new strategies for disease therapy. Only six years after the discovery of RNAi (in 2004), the first siRNA based human therapeutics was developed as treatments for wet age related macular degeneration and entered phase I clinical trials. (Cejka, 2006, Castanotto, 2009). In particular, the development of siRNA based therapeutics has progressed rapidly. Given the ability to specifically silence any gene of interest, siRNA offers several advantages over conventional drugs as potential therapeutic agents for the treatment of human maladies including cancer, genetic disorders, and infectious diseases (Zhou, 2011). Although much is known about the mechanisms of RNAi, there are a number of challenges that applications of this gene silencing technology need to overcome. For instance, siRNA delivery, bio stability, pharmaco kinetics and specificity, including off target effects, will be major topics of further investigation. One critical advance was chemically modifying siRNA to create molecular structures without comprimising gene silencing efficiencies and applying more rigorous bioinformatics to siRNA design (Elmén, 2005, Pande, 2008). Here, we undertook the present computational study of duplexes based on crystal structure data from PDB 1SI3 (Ma, 2004). The duplexes of interest are shown in Figure 1. Duplex II IV derived from duplex I were used to study effect of closing base pair and dangling residues on the duplex stability.
6 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Elisabeth Catherina W
Figure 1. Sequences of the duplexes used in this study. The modified residues shown in blue color are derived from naturally occuring siRNA (structure I from PDB 1SI3) (Ma, 2004).
METHODOLOGY The MD simulations of four duplexes in Figure 1 were carried out in explicit solvent using GROMACS package 4.0.3 (van der Spoel, 2005, Berendsen, 1995) and Amber force field 2003 (Duan, 2003) for 10 ns. A starting structure was obtained from PDB .1SI3 (Ma, 2004) and the other modified structures were generated using Nucleic Acid Builder software package (Macke, 1998) The duplex was placed in a rhombic dodecahedron box (edge length approximately 6 nm), which subsequently filled with about 5000 TIP3P water molecules (Jorgensen, 1983). To neutralize the sistem, 16 sodium ions were placed randomly in simulation box. The simulations were performed in the NPT ensemble with periodic boundary conditions, a temperature of 300 K and at pressure 1 atm.The temperature and the pressure were kept constant by Berendsen’s weak coupling scheme (Berendsen, 1984) with coupling parameter of 0.1 ps for temperature, 1.0 ps for pressure, and the isothermal compressibility of 4.5∙10 5 bar 1. Constraint were used for bond lengths using the LINCS algorithm for the duplex (Hess, 1997), and SETTLE for the water(Miyamoto, 1992). A twin range cut off was used for van der Waals interactions. The electrostatic interactions were evaluated by using particle mesh Ewald (PME) method (Darden, 1993).
RESULTS AND DISCUSSIONS The all MD simulations of four structures in Figure 1 were performed for 10 ns simulation time and the root mean standard deviation (Figure 2) were examined against all atoms after fitting on backbone atoms (C4’, C3’, O3, P, O5, C5’ atoms). The RMSD values were obtained 7.3 ± 1.2 Å, 5.5 ± 1.0 Å, 3.8 ± 0.6 Å, and 4.3 ± 0.8 Å for structure I – IV respectively. These values revealed the difference between the simulated and starting structure. As can be seen in Figure 2, the RMSD values of the first structure was increasing which suggested that the simulation did not lead to a stable structure. By contract, after changing the closing base pairs and dangling ends, the RMSD values were decreased significantly. However, structure III and IV demonstrated smaller RMSD values compared to structure II. It is noteworthy, that the dangling ends do not interact directly by hydrogen bonding in the duplexes but contribute more to the stability of duplex. The individual atomic motions within the siRNAs were also calculated. The fluctuation of an atom relative to its average position (root mean square fluctuation of RMSF) indicate the extent motion experienced by this atom. Figure 3 depicted RMSF of all atoms for four structures. Each residues had a peak due to the especially flexible phosphate group, while the ribose and base parts were more rigid. Upon closer inspection it turned out, however, that the atoms of structure III were the most rigid compared to other structures and had the smallest mean value of RMSF 1.7 ± 1.1 Å.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 7 Molecular Dynamic Simulation......
The fraction of hydrogen bonding between the base pairs during the 10 ns simulation time is displayed in Figure 4. There were 6 base pairs in the duplexes and the time evolution of the occurence of base pairing in the duplexes are also illustrated. We adopted the H bond criteria: H bond donor or acceptor heavy atom distance D...A < 3.5 Å D H...A angle > 120 o. Here, most of the hydrogen bonds were maintained during the simulation for modified structure of duplexes. The hydrogen bonding in canonical Watson Crick base pair C G can understandably provide a significant effect on the stability of duplexes. Moreover, as already noted above, the dangling ends contribute even greater than the base pairing effect on the stability of duplexes.
Figure 2. Time course of the RMSD (in Å) of the siRNAs in Figure 1 against the starting structure after fitting on the backbone atoms
Figure 3. Atomic RMS fluctuation (RMSF) for all atoms relative to the atom average positions for nucleotide atom types. The red lines indicate the backbone atoms. Some residue codes are shown, and the codes in blue indicate the modified residues
8 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Elisabeth Catherina W
Figure 4. Time course of hydrogen bonds of the siRNAs in Figure 1. It is also shown time evolution of the occurence of base pairing in the duplexes. Black color means the occurence of base pairing. CONCLUSION Using MD simulations with ffamber03, we have compared the global structural features of a siRNA and modified siRNAs during the time simulation of 10 ns. The changing of closing base pair and dangling ends affected significantly the RMSD, RMSF and fraction of H bonds of the duplexes by hydrogen bonding and base stacking. Therefore, these interaction might affect both backbone rigidity and stability of RNA structure.
ACKNOWLEDGEMENT This research funded by a grant from DP2M DIKTI (grant no. 327/SP2H/PP/DP2M/2010).
REFERENCES
Berendsen, H. J. C., D. Van Der Spoel, R. Van Drunen, 1995, Gromacs: a message passing parallel molecular dynamics implementation, Comp Phys Comm, 91 , 43 56. Berendsen, H. J. C., J. P. M. Postma, W. F. Van Gunsteren, A. Dinola, J. R. Haak 1984, Molecular dynamics with coupling to an external bath, J Chem Phys, 81 , 3684 3690. Castanotto, D., J. J. Rossi, 2009, The promises and pitfalls of RNA interference based therapeutics, Nature, 457 , 426 457. Cejka, D., D. Losert, V. Wacheck, 2006, Short interfering RNA (siRNA): tool or therapeutic?, Clinical Science, 110 , 47 58. Cullen, B. R., 2009, Review article viral and cellular messenger RNA targets of viral microRNAs, Nature 457 , 421 425. Darden, T. D. Y., L. Pedersen 1993, Particle mesh Ewald: an N.log(N) method for Ewald sums in large systems, J Chem Phys, 98 , 10089 10092.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 9 Molecular Dynamic Simulation......
Duan, Y., Wu, C., Chowdhury, S., Lee, M.C., Xiong, G., Zhang, W., Yang, R. Cieplak, P., Luo, R., Lee, T., Caldwell., J., Wang, J., Kollman, P., 2003, A point charge force field for molecular mechanics simulations of proteins based on condensed phase quantum mechanical calculations, J Comput Chem, 24 , 1999 2012. Elmén, J., H. Thonberg, K. Ljungberg, M. Frieden, M. Westergaard, Y. Xu, B. Wahren, Z. Liang, H. Ørum, T. Koch, C. Wahlestedt, 2005, Locked nucleic acid (LNA) mediated improvements in siRNA stability and functionality, Nucleic Acids Res, 33 , 439 447. Fire, A., S. Xu, M. K. Montgomery, S. A. Kostas, S. E. Driver, C. C. Mello, 1998, Potent and specific genetic interference by double stranded RNA in Caenorhabditis elegans, Nature, 391 , 806 811. Hess, B., H. Bekker, H.J.C. Berendsen, J.G.E.M. Fraaije, 1997, LINCS: a linear contraint solver for molecular simulations, J Comput Chem, 18 , 1463 1472. Jorgensen, W. L., J. Chandrasekhar, J. D. Madura, R. W. Impey, M. L. Klein, 1983, Comparison of simple potential functions for simulating liquid water, Chem Phys, 79 , 926 935. Ma, J. B., K. Ye, D. J. Patel, 2004, Structural basis for overhang specific small interfering RNA recognition by the PAZ domain., Nature, 429 , 318 322. Macke, T., D. A. Case, (1998) Modeling unusual nucleic acid structures, In Molecular Modeling of Nucleic Acids, N.B. Leontes and J. SantaLucia, Jr., eds., Washington, DC., American Chemical Society. Miyamoto, S., P. A. Kollman, 1992, SETTLE: an analytical version of the SHAKE and RATTLE algorithm for rigid water models, J Comput Chem, 13 , 952 962. Pande, V., L. Nilsson, 2008, Insights into structure, dynamics and hydration of locked nucleic acid (LNA) strand based duplexes from molecular dynamics simulations, Nucleic Acids Res, 36 , 1508 1516. Van Der Spoel, D., E. Lindahl, B. Hess, G. Groenhof, A. E. Mark, H.J.C. Berendsen, 2005, GROMACS: Fast, flexible, and free, J Comput Chem, 26 , 1701 1718. Zhou, J., J. J. Rossi 2011, Progress in RNAi based antiviral therapeutics, Methods Mol Biol, 721 , 67 75.
10 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Dolih Gozali, et al.
FAST DISSOLVING TABLET FORMULATION OF METOCLOPRAMIDE HYDROKLORIDE BY ADDITION OF KOLLIDON CL-F AS SUPERSDISINTEGRANT
Dolih Gozali 1*, Fikri Alatas 2, and Fitrie Widiastuti 2 1.Faculty of Paharmacy Universitas Padjadjaran , 2. Pharmacy Department Universitas Achmad Yani Cimahi Bandung email : [email protected]
ABSTRACT
Metoclopramide hidrokloride is antiemetic and gastroprokinetic, mainly used to treat nausea and vomiting. Patients who have it is difficult to swallow anti vomiting conventional tablets. So that anti vomiting drugs tablets better if it made with a fast dissolving tablet technology. Fast dissolve tablet (FDT) is a solid dosage forms that disintegrate in the oral cavity leaving an easy to swallow residue. The disintegration times are generally less than one minute. For fast dissolving tablets, taste masking of bitter or objection tasting drug substances is critical. The influence use of Kollidon Cl F as super desintegrant concentration of 10% (F1), 15% (F2) and 20% (F3) compared with the F0 are not using Kollidon Cl F, carried out to determine the variation of disintegration time, dissolution rate, water absorption ratio and wetting time of tablets in each formula. The assessment of the tablet so the four formulas also qualify include uniformity of size, weight, hardness and friability test. The results showed that the dissolution rate of metoclopramide HCl with the addition of Kollidon Cl F are better than tablets that not using Kollidon Cl F as desintegrant. Percentage of metoclopramide HCl dissolution was at minute 30 of F0, F1, F2 and F3 in the media aquadest row is 74.62%, 84.47%, 87.08%, 84.65%. Keywords : Metoclopramide Hydrochloride, Fast dissolving tablet, Kollidon Cl F
INTRODUCTION Oral drug delivery is a way of giving the most important to obtain systemic effects. Of drugs given via the oral, solid dosage form that is more favored, in this case the tablet dosage form because it is more practical and easy to use. However, not all patients can perform oral therapy using a tablet, especially in children and elderly as well as some patients with symptoms of difficulty in swallowing. The situation also occurs in patients who are experiencing nausea and vomiting conditions (emesis). So this needs to be handled by making rapid dissolve tablet. Tablets dissolve quickly (Fast dissolving tablets) is a unit of solid dosage forms which terdesintegrasi or dissolve quickly in the mouth without chewing and water, so it takes a strong desintegran that can destroy the drug without water. One substance that can be used in fast dissolve tablet formulations (Fast dissolving tablets) as superdisintegran is Kollidon CL F is disintegrator that have characteristics that are very hydrophilic, fast wetting and has the ability to develop excellent. With a surface area that is very specific polymer causes disintegrator has a high capillary activity and hydration capacity are great. As a result, water is more easily entered into the tablet. This increased volume creates pressure in excess of tablet strength and caused a rapid disintegration time of tablets. That is why Kollidon CL F categorized as superdisintegrant. Efficacious antiemetic metoclopramide hydrochloride and gastroprokinetik primarily used to treat nausea and vomiting, and to facilitate gastric emptying in patients with gastroparesis. Anti emetic action of metoclopramide is due to antagonistic activity at D2 receptors in chemoreceptor trigger zone (CTZ) in the central nervous system (CNS), this action prevents nausea and vomiting triggered by most stimuli. At higher doses, 5 HT3 antagonist activity may also contribute to the anti
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 11 Fast Dissolving Tablet Formulation ...... emetic effect. Metoclopramide prokinetik activity mediated by muscarinic activity, D2 receptor antagonist activity and 5 HT4 receptor agonist activity. Influence prokinetic itself can also contribute to the anti emetic effect. In a previous study on the formulation and evaluation of tablets rapidly dissolve Clonazepam which uses three types namely desintegran Crosspovidone, Croscarmellose Na and sodium starch glycolate resulted in some concentration in vitro dissolution time, wetting time and water absorption ratio is good. (3) In this study metoclopramide hydrochloride tablet dosage form by direct compression. Preparation of tablets by direct compression is most likely used because it gives many advantages such as quick making process, both to substances that are unstable to heat and humidity, the possibility of faster dissolution due to the direct tablet broken into powder. It is very important in the manufacture of tablet formulation by direct compression method is the selection of materials used, the excipients used must have properties that can support the process of making tablets. Tablets must contain a sweetener to mask the active substance, because the tablet will be destroyed while still in the mouth. Based on the above, in this study about the development of metoclopramide hydrochloride tablets with various concentration of Kollidon CL F as superdisintegrant , so that can know the effect of adding several concentrations of Kollidon CL F on the dissolution rate of tablets and tablet quality that meets the requirements. This study aimed to obtain the formula tablets metoclopramide hydrochloride with Kollidon CL F superdesintegran which can result in the rate of disintegration time, the ratio of absorption and wetting time, dissolution rate and tablet quality is best.
METHODOLOGY Material The materials used in this study are as follows: metoclopramide hydrochloride (KF Research and Technology), Kollidon CL F (BASF), Amprotab, Avicel, PH 102, Spray Dried Lactose, Hydroxy propyl celulose (PT. Brataco), Stearic acid (PT. Brataco), Talc (PT. Brataco), Aerosil (PT. Brataco), Stevia, Mannitol (Ristek KF), distilled water, mercury (II) acetate, acetic anhydride, glacial acetic acid (PT. Brataco), perchloric acid 0.1 N, Potassium Hydrogen Pthalat, and Crystal Violet Indicator.
Research Methods The study begins with the materials used for metoclopramide hydrochloride and Kollidon CL F based on the Indonesian Pharmacopoeia Fourth Edition and includes organoleptic properties, solubility, and purity. Ibuprofen purity raw materials was done by UV spectrophotometry and titration of free water. The next process is the sifting of raw materials, followed by mixing all the components and the manufacture of tablets and tablet with some formula Kollidon CL F. Formula 0 without the addition of Kollidon CL F (amprotab), formula 1 with the addition of Kollidon CL F 10%, 15% of formula 2 and formula 3 with the addition of Kollidon CL F 20%. Before comprssing the previous tablet, tablet compressed evaluation period covers the homogeneity test by setting the levels of ultra violet spectrophotometry, the water content, flow properties, angle repose and the density of granules. The tablets that have been compressed evaluated include weight uniformity test, size uniformity, tablet hardness, friability test, determination of the active substance in tablets, water content, disintegration time test, the wetting time, water absorption ratio, and dissolution test.
Research Results Examination of Identity and Purity of Raw MaterialsRaw Material Inspection metoclopramide Inspection carried out to identify the raw materials which include metoclopramide HCl organoleptic examination and solubility. Examination procedure in accordance with Indonesian Pharmacopoeia Fourth Edition 1995. Metoclopramide HCl purity test. Inspection of Raw Material Purity of
12 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences metoclopramide HCl. Metoclopramide HCl purity examination conducted by the free water titration method. Standardization performed volumetric solution 0.1 N perchloric acid . Carefully weighed 200 mg of potassium hydrogen phtalat, solution in 15 mL glacial acetic acid. Add 5 drops of acetic acid anhydride and 2 drops of crystal violet indicator. Then titrated with 0.1 N glacial acetic acid the determination of purity of raw materials metoclopramide. Carefully weighed raw materials metoclopramide HCl 300 mg, inserted into the lid 125 mL erlenmeyer flask, then added 10 mL of mercury (II) acetate LP, 2 mL acetic anhydride and added to 30 mL of glacial acetic acid P. Allow a few moments and titration with perchloric acid 0.1 N, calculated levels of metoclopramide HCl. Examination Kollidon CL F Kollidon CL F reviewed by Hand Book of Pharmaceuticals Excipients ed.IV Fourth Edition 2003. Examination includes organoleptic test and solubility test. Wavelength Determination and Calibration Curves Determination of Maximum Absorption Wavelength metoclopramide HCl Carefully weighed as much as 50 mg of metoclopramide HCl. Then put in 50.0 mL measuring flask and dissolved in distilled water until a limit (1000 ug / mL). The solution of 5.0 mL and diluted with distilled water to 50.0 mL (100 ug / mL). Then a solution of 2.0 mL added again and diluted with distilled water to 25.0 mL (8 g / mL). Then the absorbance was measured at a wavelength of 200 400 nm. The results obtained by measuring the wavelength of 309.0 nm. Preparation of Calibration Curve of metoclopramide HCl Carefully weighed 50.0 mg of metoclopramide HCl, then dissolved in distilled water to 50.0 mL (1000 g / mL). The t solution of 5.0 mL added and diluted with distilled water to 50.0 mL (100 ug / mL). From the solution made metoclopramide HCl solution with concentrations of 2, 4, 6, 8, 10, 12 ug / mL. Each concentration was measured absorbance at a wavelength of 309.0 nm, then made a standard curve by plotting the absorption against concentration. 5.3. Soluble Tablet Making Fast metoclopramide HCl. The composition of the fast dissolving tablet with various concentrations of Kollidon CL F can be seen in the table below:
Fomula of metoclopramide HCl Fast Formula Dissolving Tablets F0 F1 F2 F3 Metoclopramide HCl (mg) 10 10 10 10 Kollidon CL M (%) 10 15 20 Dry starch (%) 10 Avicel pH 102 (%) 35 35 35 35 Spray Dried lactose (%) 20 20 20 20 Hydroxy propyl Cellulose (%) 3 3 3 3 Talc (%) 2 2 2 2 Aerosil (%) 1 1 1 1 Stearic acid (%) 1 1 1 1 Stevia (mg) 1 1 1 1 Mannitol until (mg) 200 200 200 200
Weighed materials as needed, the material was not crushed because the expected shape of granular excipients. Then mix all ingredients (except magnesium stearate, talc and Aerosil). Ingredients are mixed for 15 minutes until homogeneous, then add magnesium stearate, talc and Aerosil mixed for 2 minutes. Conducted an evaluation of the tablets , including weight type, grade incompressible, flow rate, moisture content. Then compress the granules using 8 mm punch. Tablets produced and be evaluated.
Evaluation the Tablet Homogeneity Test Homogeneity test carried out by specifying the content of the print sample tablets by UV spectrophotometry. Samples will be weighed the equivalent of 10 mg metoclopramide HCl. Samples were dissolved in 100.0 mL of distilled water. Dipipet as much as 1.0 ml solution add 50.0
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 13 Fast Dissolving Tablet Formulation ...... mL with distilled water in a flask peck. Then the absorbance was measured at a wavelength of 309.0 nm. Each sample was tested 3 times.
Powder Density True Density Determined by picnometer using liquid paraffin. Density measurement was performed in the 25 mL pycnometer . Real density Defined by using the measuring cup 250 mL. 100 g powder print the tablets inserted into the measuring cup and measure its volume. Apparent density was calculated using the formula: Real BJ = Weight / Volume Density incompressible Determined on a tap. 100 g powder of the print is inserted slowly into 250 mL measuring cup, then the volume of compressed powder by tapping a measuring cup with a speed of one beat per second. Having obtained a constant volume of incompressible (v), density (ρt) can be calculated using the The results can be seen in Appendix 4, Table V.10 Flow rate Defined by the funnel method. 100 g powder of the print is inserted into the funnel contained in the instrument. Prepared at the bottom of the container receptacle. Close the funnel was opened for powder flow. Flow rate is determined by calculating the time required by a number of powder to fall through the funnel flow rate testers. The flow of granules will be considered good if the print through a funnel as much as 4 grams per second. Determined with a moisture balance. 1 g of powder is put into the aluminum plate, flatten and then insert it into the tool. Heat at a temperature of 70 º C, and then look at the numbers listed on the appliance.
Tablet Evaluation Organoleptic evaluation Visually observed, including appearance, odor and taste. Observed whether there unhomogeneity dyes or not, the form of tablets, the surface defect or not, and should be free of stains or spots. Size Uniformity Measured diameter and thickness of tablet of 20 times using a shove. Tablet diameter not more than three times and not less than one third of the thickness of the tablet. Weight Uniformity 20 tablets taken randomly and then carefully weighed each tablet. Calculated weighted average and deviation of average weight. No one deviates tabletpun weight greater than average weight set of columns A and B. Tablet Hardness Performed using a hardness tester with 20 tablets taken randomly. Then calculated the average. Friability test Performed using tools friabilator on 20 tablets taken randomly. Tablets taken at random and then cleaned one by one with a fine brush, and then weighed. Then entered all the tablets into the appliance, and then rotated by 20 turns per minute for 5 minutes. Then the tablets be cleaned again and weighed to determine the reduced weight. Percebntage of Friability = (initial weight final weight tablets tablets) / (initial weight of the tablet) . Content Uniformity Content uniformity test done because the weight of the active substance <50 mg, or weight of the active substance ≤ 50% weight of the tablet. 30 tablets taken randomly, and then taken 10 tablets and are determined one by one at a wavelength of 309.0 nm. If there is a tablet that is beyond the
14 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences limits 85 115%, prescribed 20 tablets remaining are considered eligible if only one tablet of 30 tablets that provide results beyond 85 115%. Disintegration time One tablet inserted in each tube of the basket, one disc is inserted in each tube and then the appliance. Used aquades at 37 º ± 2 º C as the media. Water Absorption Ratio and wetting time. Conducted to determine the ability to absorb water tablets and find out the speed of a tablet to absorb water. Performed on 5 cm diameter Petri dish, lined with 2 layers of tissue that had formed a circle with a diameter of 5 cm. Next to it is added 6 mL distilled water. Let stand until water can be absorbed by the entire surface of the tissue. Weighed tablets initial weight (Wa), then place the tablet test at the center of a petri dish. Calculated time required for water to wet the entire surface of the tablet. Weigh the tablet that has been wetted (Wb). Then the calculated value of absorption ratio with the formula: Dissolution test The tools used dissolution method stirrer wing, consisting of a glass vessel with a round base, which is placed in a water bath equipped with a thermostat to maintain the temperature to remain constant. In rowing vessel is placed in the middle of the rotation speed 50rpm. Used distilled water as much as 900 mL of dissolution media and the temperature maintained at 37 º ± 2 º C by the thermostat.
Picture 1 : Dissolution rate profiles of metoclopropramide HCl fast dissolvinf tablet F0 : Tablet Formula not containing Kollidon Cl-F F1 : Tablet Formula containing Kollidon Cl-F 10% F2 : Tablet Formula containing Kollidon Cl-F 15% F3 : Tablet Formula containing Kollidon Cl-F 20% Entered one tablet of metoclopramide in the dissolution vessel that has been mounted mixer. Then rotated at 50 rpm for 30 minutes. The samples were taken at minute 5, 10, 15, 20 and 30 minutes. The samples obtained were measured at a wavelength of maximum absorbance and calculated concentration levels of the active substance in tablets.
DISCUSSION Metoclopramide hydrochloride is used to treat nausea and vomiting. Patients with both nausea and vomiting caused by pregnancy, chemotherapy drugs, gastroenteritis, intestinal tract disorders, or
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 15 Fast Dissolving Tablet Formulation ...... peritonitis, postoperative. Patients who experience nausea and vomiting is often difficult to swallow tablets usual anti vomiting convensional. Thus, anti vomiting drugs tablets better if made with the technology Fast dissolving or sometimes called Desintergration Orally Tablet. The materials used for metoclopramide hydrochloride and Kollidon CL F is important because both of these raw materials which play an important role in fast dissolve tablet formulations such. Results from pemeiksaan both meet the requirements of Indonesian Pharmacopoeia IV edition, and Handbook of Eksipient edition IV. Checking the purity of metoclopramide hydrochloride titration carried out free water, and obtained the results of 100.84%. In this research, the Fast dissolving tablets made with variation 3 formulas and a formula as the formula used for comparison. Direct compression method was used because this method is more practical and easily understood than the method of making another Fast dissolving tablet. Although it should be used eksipient helpers with better quality the price is quite expensive when compared with conventional tablet excipients, such as spray dried lactose as filler. This formula should also use a fairly dry binder as to ensure the ability to be compressed even compress for Avicel PH 102 at a concentration of 20 90% can be used as a binder. In the first formula (F0) is not used Kollidon CL F, only used amprotab since F0 is used as a comparison. Used Kollidon CL F 10% (F1), 15% (F2) and 20% (F3). This is done to determine the variation of disintegration time, dissolution rate, the ratio of water absorption and wetting time of tablets in each formula. A tablet will be uniform content of each tablet when secured by the homogeneity of the print, the results of the evaluation showed good results for the homogeneity of the print that will be felt. Because this formula is made direct print, then the print must mempunyasi kompressibilitas flow rate and good, so you can easily print, has a weight uniformity and good uniformity of dosage. Flow rate improved with the use of excipients which granular form to reduce fines when printed, so use Lactose Spray Dried for filler in combination with Avicel PH 102. Evaluation of flow rate and kompressibilitas show good results Hygroscopic properties of Kollidon CL F and mannitol hard to avoid, although storage with silica gel and the use of the dryer cabinet, but on the F3 with the composition of CL F Kollidon highest (20%) still have a high moisture content is 4.85%. However, during the printing process, it does not cause capping, lamination or picking. Evaluation carried out on tablets so from the four tablet formula includes the examination of the uniformity of size, weight uniformity, hardness and brittleness, water absorption ratio, wetting time . In organoleptic, shape and surface of the tablet F0, F1 and F2 both flawless, but the F3 surface brittle and bad. This is caused by poor tablet hardness, which is caused by the composition of Kollidon CL F high which resulted in the more humid tablet printing so difficult to print well. Metoclopramide bitter taste is still difficult to offset with the use of mannitol and stevia, but if the concentration os stevia be increased the tablets will taste more bitter because stevia has distinguished bitter after taste. If the amount of mannitol who improved, print the tablets would be difficult to flow due to very poor flow properties of mannitol and tablets will stick to the punch because mannitol is very hygroscopic. Uniformity test metoclopramide hydrochloride tablet size is done by measuring the diameter and thickness of 20 randomly selected tablets of each formula with a shove. Diameter of tablets of each formula is the same as used the same punch that is 0.830 cm, while the thickness of the tablet from the formula ranges from 0.410 to 0.435 cm and acceptable and fulfill the requirements of the third edition of Pharmacopoeia Indonesia tablet diameter not more than 3 times and not less from 1 1 / 3 times the thickness of the tablet. Test results metoclopramide hydrochloride tablet weight uniformity of F0, F1, F2 and F3 have a pretty good weight uniformity of 204.09 ± 3.14; 201.50 ± 7.25; 204.89 ± 5.52; 200.87 ± 5.58 mg. Deviations from the entire weight of the tablet formula ranged from 1.127 to 2.763%. The whole formula tablet weight uniformity requirements based on the Indonesian Pharmacopoeia third edition
16 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences of not more than 2 tablets each weight deviates from its average weight is greater than 7.5% and not a single tablet that weighs even deviate from its average weight is more than 15%. Results The average hardness test for tablets F0, F1, F2 and F3 respectively was 4.7 ± 0.48; 4.6 ± 0.52, 3.6 ± 0.52, 2.5 ± 0.53 Kg/cm3. Tablet hardness tests carried out to observe the strength of tablets. In addition, tablet hardness may reflect its ability disintegrated in the dissolution media. Tablet F0, F1 and F2 showed good results as per the requirement, namely 4 6 Kg/cm3. However F3 showed poor tablet hardness, it caused the print kompressibilitas higroskopisitas and F3, so it is difficult at Felt. Test results for tablet keregasan F0, F1, F2 and F3 respectively 0.46%, 0.41%, 0.27% and 1.10%. The test results for F1, F2 and F3 meet the requirements of not more than 1%. The test results for F3 bad, because poor compressibility test keregasan tablet tablet aims to find the resistance against friction and mechanical shocks during the manufacturing process and delivery. The result of content uniformity test of tablets F0 F2 either of between 100.52 to 100.97% with relative standard deviation ranged from 2.27 to 3.61. The results show that the formulas F0, F1 and F2 meet the requirements of content uniformity based on the Indonesian Pharmacopoeia IV edition that is not less than 90.0% and should not be more than 110.0%, but in F3 there is a tablet that contains 89.77% so that transactions are carried out tests on 20 tablets remaining. Of the 30 tablets F3, not to exceed 1 tablet whose levels are less than 90% or exceed 110%. So F3 still qualify tablet content uniformity, which is worth 99.81%. Testing the disintegration time is important to know the time terdispersinya drug, because the purpose of the making of this formula is expected velocity dispersion so that the tablet can be destroyed very quickly. Kollidon CL F has the ability berdispersi with swelling mechanism or expand, forming large pores so that water can quickly get into the inside of the tablet. Tablets which will expand very easily destroyed. From the evaluation results, tablet disintegration time F0, F1, F2 and F3 respectively in the second, scoring 168 ± 15.31; 28 ± 3.61, 20.67 ± 1.53 and 10 ± 2.65. According to several journals, destroyed a good time for quick dissolve tablet is less than 30 seconds. F0 as the comparison does not have destroyed a good time. Test the water absorption ratio and time of wetting aims to determine the capabilities and speed of a fast dissolving tablet to swell by absorbing saliva which is expected later broken tablet in the mouth. The ratio of water absorption and wetting time is an important criteria for understanding the capacity desintegran which showed the drug more easily swallowed with a little water. From the evaluation results, the ratio of water absorption of F0, F1, F2 and F3, respectively, 12.21% ± 1.29; 57.96% ± 11.39; 97.98% ± 4.42 and 103.14% ± tablet wetting time of 5.53 and 103.33 ± 4.01; 71.4 ± 0.53, 68.17 ± 3.05 and 66.73 ± 1.55 seconds. The evaluation results of water absorption ratio and wetting time indicates F0 as a blank tablet has a poor ability to absorb water, when compared with F1, F2 and F3 as F0 not using Kollidon CL F as desintegrator. F0 tablet ability to absorb water that is long enough for 103.33 seconds. F3 shows the water absorption ratio of the largest and most rapidly absorb water. Metoclopramide tablet dissolution test was performed in about 900 mL of distilled water as a medium. Dissolution test results of metoclopramide hydrochloride in formulas F0, F1, F2 and F3 respectively has increased significantly. There are significant differences when viewed between F0 with F1, F2 and F3. F0 as an blank showed good dissolution results, which is just as much as 74.62% are substances that dissolve for 30 minutes. Meanwhile, according to the requirements of Indonesian Pharmacopoeia IV edition, metoclopramide hydrochloride tablets tolerance must be dissolved within 30 minutes of not less than 75% of the solute of concentration on the label.
CONCLUSION From the research it can be concluded that the fast dissolving tablet formulation of metoclopramide hydrochloride using superdisintegran Kollidon CL F with a concentration of 10%, 15% and 20% can increase the disintegration time, the ratio of water absorption and dissolution. Kollidon CL M proved to be used as a good superdisintergant, shown from the results of the evaluation of
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 17 Fast Dissolving Tablet Formulation ...... tablets. This is because the mechanism dersintegration of Kollidon CL F that expands thereby increasing the porosity and water absorption into the tablet. From the three formulas are added Kollidon CL F as superdisintegrant, only 2 formulas that show the optimal results overall evaluations conducted. The most optimal formulation is F2, a solid tablet with good quality for the process be seen packing and distribution of the friability test while fulfilling the requirements of disintegration time, water absorption ratio and time of wetting and dissolution rate as the main requirement of a rapid dissolve tablet. In addition, the dissolution of good support from the success of both the formula. F3 said is not good enough because the tablets are brittle so there are many defects due to the composition of Kollidon CL F which resulted in too many tablets to be very hygroscopic and brittle.
REFERENCES
Amurtha, A. (2009) : Fast Dissolving Tablet. Florey, klaus. (1991) : Analytical Profiles of Drugs Substance , Vol 20, Academic Press, San Diego Shirsand, Suresh , Swami. (2009). Formulation Design and Optimization of Fast Dissolving Clonazepam Tablet . 71: 567 571 King, R.E. (1984) : Dispensing of Medication ,9th ed, Mack publish. Lachman, L., Lieberman, H.A, dan Kanig, J.L. (1994) : Teori dan Praktek Farmasi Industri ., Edisi III, Jilid II, Terjemahan Siti Suyatmi, UI Press, Jakarta. Voight, R. (1994) : Buku Pelajaran Teknologi Farmasi , Terjemahan Soendani Noerono. Cetakan Pertama, Edisi V, UGM Press, Yogyakarta. 794 796. Agoes Goeswin. (2008) : Pengembangan Sediaan Farmasi . Penerbit ITB, Bandung. 226 227 Ansel, H.C. (1989) : Pengantar Bentuk Sediaan Farmasi , Terjemahan Farida Ibrahim, Edisi IV, UI Press, Jakarta, 119, 120, 261 Dinesh, dkk. (2008) : Fast Dissolving Tablet . Volume 6 Bagul, S.Uddhav. (2006) : Manufacturing Technologis for Mounth dissolving Tablet. Anonim. (1995) : Farmakope Indonesia Edisi IV , Departermen Kesehatan Republik Indonesia, Jakarta, 449, 450, 1009. Raymon, C.R., Sheskey, J.P, sdan Weller, J.P. (2006) : Handbook of Pharmaceutical Exipients , 5 th ed, American Pharmaxceutical association, The Pharmaceutical press, London, 132 135, 214 215. Siregar, Charles. (2010). Teknologi farmasi Sediaan Tablet. Penerbit Buku Kedokteran. EGC. 54, 71, 98 113 Aiache, J.J.M. (1993) : Farmasetika 2-Biofarmasi , Edisi II, terjemahan Widji Soeratri, Universitas Airlangga, Surabaya, 385 387. Banakar U.V. (1992) : Pharmaceutical Dissolution Testing , marcel Dekker, Inc. Lieberman h.A, et al. (1990) : Pharmaceutical Dosage Form : Tablet , volume 2, 2nds esd, Revised, Marcel Sdekker, Inc. Abdou, H.M. (1989) : Dissolution, Bioavailability and Bioequivalence , Mack Publishing Company, Easton, Pennsylvania, 523 70 Anonim. (2007) : Farmakologi dan Terapi , Edisi VI, Gaya Baru, Jakarta, 240. Tan Hoan Tjay. Drs., Rahardja Kirana Drs. (2007) : Obat-Obat Penting , Edisi VI, Elex Media Komputindo, Jakarta, 280 281
18 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Endang Dwi Wulansari, et al.
IN VITRO ANTIBACTERIAL ACTIVITY OF NIGELLA SATIVA SEEDS AGAINST STREPTOCOCCUS PYOGENES
Endang Dwi Wulansari *) , Yully Sri Mulyati *) , Herry Pratikno **) *) STIFAR “Yayasan Pharmasi”, Semarang, Indonesia; **) Faculty of Animal Agriculture, Diponegoro University, Semarang, Indonesia
ABSTRACT
Antibacterial activity of Nigella sativa seeds against Streptococcus pyogenes was investigated. The seed extracts were prepared by soxhlet extracted method using n hexane, ethyl acetate, and ethanol. Several concentrations of Nigella sativa extract were tested by the well diffusion method. The inhibition zones of the Muller Hinton agar in different extract concentrations such as 20%, 40%, and 80%, showed that n hexane extract was found to be inactive against Streptococcus pyogenes , while ethanolic extract at 80% showed the biggest inhibition zones. Bioautography assay of ethyl acetate extract and ethanolic extract showed there were flavonoid and saponin compounds that inhibited Streptococcus pyogenes growth. Key words: Nigella sativa, antibacterial activity, bioautography, Streptococcus pyogenes
INTRODUCTION Nigella sativa is commonly known as black seed which belongs to botanical family of Ranunculaceae. The seeds have been claimed to have several traditional medicinal properties (Roshan, et,al ., 2010). The seed extracts and its essential oil have been reported to exhibit many pharmalogical effects including antidiabetic (Khanam, et.al , 2008), antiinflammatory (Elbandy, et.al, 2009), antibacterial (Zuridah, et.al., 2008), anti oxidant (Yoruk, et,al., 2010), and anti stress (Roshan, et,al., 2010). Pharyngitis (strep throat) is common illness in Indonesia. It may happen because of bacteria, such as Streptococcus pyogenes. Beside the anti inflammatory agent, it needs an antibacterial agent to cure the illness. Nigella sativa is becoming the alternative medicine for strep throat, because of it anti inflammatory activity and antibacterial activity. The aim of this study is to determine the antibacterial activity of several seed extracts from Nigella sativa against Streptococcus pyogenes.
METHODOLOGY Plant material and extraction procedure The Nigella sativa seeds were purchased from a local herbal shop in Semarang, Indonesia. A modification of soxhlet extraction procedure by Ali, et.al (2007) was used. The seeds of Nigella sativa were powdered in a mixer. 30 g Nigella sativa seed powder placed in a soxhlet and extracted with 300 ml n hexane at 70˚C. The plant residue in soxhlet, was then re extracted with 300 ml ethyl acetate at 80˚C. The lastly, the plant residue in soxhlet was extracted with 300 ml ethanol at 70˚C. All the extract, n hexane, ethyl acetate, and ethanolic extracts were each evaporated after extraction using a vacuum rotary evaporator.
Bioautography assay Volatile oil, flavonoid and saponin compound of n heksan extract, etil acetate extract, and ethanolic ectract have been analyzed using thin layer chromatography (TLC) with silica gel GF 254 plates (Merck), according to the method of Wagner and Bladt (1996) and contact bioautography assay procedure by Gende, et,al. (2008). N hexane extract was used for volatile oil identification using toluene etil asetat (93:7) as the mobile phase. Etil acetate extract and ethanolic extract were used for flavonoid and saponin identification. Flavonoid identification used butanol asam asetat air (4:1:5) as the mobile phase. Saponin identification used kloroform : metanol : air (64 : 50 : 10) as the mobile phase.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 19 In Vitro Antibacterial Activity…..
The stationary phase that used for identification, was placed on the inoculated plates within 30 minutes. The plates were incubated at 37˚C for 24 hours. Microbial growth inhibition zone was determined by measuring the area of inhibition zones. The inhibition zone was calculated as average of three measurements per TLC plate.
Determination of antibacterial activity Nigella sativa seeds extract were tested against Streptococcus pyogenes. This strains were obtained from Health Laboratory Office, Semarang. Antibacterial activity was determined by the well diffusion method. Muller Hinton agar plates were cultured with Streptococcus pyogenes for 24 hours . The inoculums size was adjusted to 1 MacFarland I turbidity standard (3x10 8 cfu/ml). Muller Hinton agar plates were inoculated with Streptococcus pyogenes suspentions using spread method. The dried plant extracts were dissolved in polyethylenglicol (PEG) to give concentrations of 20%, 40%, and 80% (w/v). Wells (1 cm diameter) were cut into the agar and filled with 50 l of the plant extract. The inoculated plates were incubated at 37˚C. The antibacterial activity was evaluated by measuring the diameter of the inhibition zone. The experiment was repeated five times for each concentration and the mean of diameter of the inhibition zones was calculated.
RESULTS AND DISCUSSIONS The ability of an antibacterial agent to inhibit bacterial growth in vitro may be estimated by the diffusion method. This study investigated the antibacterial effect of n hexsane, ethyl acetate, and ethanolic seed extract on Streptococcus pyogenes. The n hexane extract did not show the antibacterial activity. TLC analysis of volatile oil in n hexane extract showed there was one blue colour spot (Rf 0.28) using anisaldehid sulphonic acid, but did not show inhibitory effect against Streptococcus pyogenes on bioautography assay. TLC analysis of flavonoids in ethyl acetate extract and ethanolic extract showed one spot (Rf 0.67) in each extract. It is possible that flavonoid can be extracted with both ethyl acetate and ethanol. Bioautography assay of flavonoids in ethyl acetate extract and ethanolic extract showed an inhibitory zones with 1.363 cm diameter for ethyl acetate extract and 1.281 cm for ethanolic extract. TLC analysis of saponins in ethyl acetate extract and ethanolic extract showed different spots with different values of Rf, 0.88 cm (ethyl acetate extract) and 0.77 cm (ethanolic extract). The diameters of the inhibition zones of saponin for ethyl acetate extract and ethanolic axtract were 1.296 cm and 1.371 cm (Figure. 1). The bioautography technique was employed to define the active constituents (Iskan, et al., 2002). There are two constituent in Nigella sativa seeds which are flavonoid and saponin can inhibited Streptococcus pyogenes growth. Saponin have shown activity against a broad range of microorganism including bacteria, filamentous fungi and yeast (Kredy, 2010).
Figure 1. Bioautography assay of flavonoids (A) and saponin compound (B) in ethyl acetate extract and ethanolic extract
20 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Endang Dwi Wulansari, et al.
In this study, we investigated the antibacterial effects of n hexane, ethyl acetate, and ethanolic seed extracts on Streptococcus pyogenes (Table 1.).
Table 1. Inhibition zones of ethyl acetate extract and ethanolic extract at various concentration against Streptococcus pyogenes.
Concentration Zone of inhibition (cm) 20% 40% 80% Ethyl acetate extract 1.358 1.608 2.177 Ethanolic extract 1.963 2.163 2.319 Positive control 2.292
There are significantly different inhibition zones from various kind of solvent and concentration extract. The ethanolic extract gave higher value compared to ethyl acetate extract. It is possible because of the polarity of the flavonoid and saponin are similar to ethanol. So, it can good extracted by ethanolic solvent. The best inhibition was seen at 80% ethanolic extract. The inhibition zones showed higher value on the higher concentration, due to the concentration of constituents of the extract. The end point of inhibition is judged by the naked eye at the edge where the growth starts, but there are exceptions like the heaped up growth characteristics (Zuridah, et.al., 2008). Ciprofloxacin (50mg/L) and PEG were used on the MHA for positive control and negative control, respectively. In this preliminary study, Minimum Inhibitory Concentration (MIC) of the extract was not carried out, however the diameters of Streptococcus pyogenes were reported here. This study showed that the ethanolic extract of Nigella sativa seed at 80% concentration had the best antibacterial activity.
CONCLUSION In our study we have found that ethyl acetate and ethanolic extracts of Nigella sativa seed, which its compounds were flavonoid and saponin, could be used as antibacterial agent against Streptococcus pyogenes. More studies may be needed to make final conclusion regarding the use of Nigella sativa seed as a good medicinal plant for strep throat.
REFERENCES
Ali, O., Basbϋlbϋl, G., Aydin, T., 2007, Antimicotic and Antibacterial Effects of the Nigella sativa L. Seed, Caryologia, 60 (3) : 270 272 Elbandy, M., Kang, O.H., Kwon, D.Y., Rho, J.R., 2009, Two New Antiinflammatory Triterpen Saponins from the Egyptian Medicinal Food Black Cumin (Seeds of Nigella sativa ), Bull. Korean Chem.Soc., 30 (8) : 1811 1815 Gende, L.B., Floris, I., Frits, R., Javier, M., 2008, Antimicrobial Activity of Cinnamon ( Cinnamomum zeylanicum ) Essensial Oil and Its Main Components Againts Renibacillus Larvae from Argentine, Bulletin of Insectologi, 61 (1) : 1 4 Iskan, G., Kirimer, N., Kϋrkcϋooglu, M., Hϋsnϋ, K., Demirci, F., 2002, Antimicrobial Screening of Mentha piperita Essensial Oil, Journal of Agricultural and Food Chemistry, 50 : 3943 3946 Khanam, M., Dewan, Z. F., 2008, Effects of the Crude and the n hexane Extract of Nigella sativa Linn. (kalajira) upon Diabetic Rats, Bangladesh J.Pharmacol, 4 : 17 20 Kredy, H.M., 2010, Antibacterial Activity of Saponin Extract from Sider ( Zingiphus spina_christi) , Journal of Thi Qar University, 1(6) : 1 7 Roshan, S., Khan, A., Tazneem, B., Ali, S., 2010, To Study The Effect of Nigella sativa on Various Biochemical Parameter on Stress Induced in Albino Rats, International Journal of Pharmacy and Pharmaceutical Sciences, 2 (4) : 185 188
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 21 In Vitro Antibacterial Activity…..
Wagner, H., Bladt, S., 1996, Plant Drug Analysis in Thin Layer Chromatography Atlas, 2 sd edition, Springer Verlag, Berlin Yoruk, O., Gur, F.O., Uyanik, H., yasar, M., Mutlu, V., Atlas, E., Baysal, E., Taysi, S., 2010, Antioxidant Effects of Nigella sativa in The Treatment of Experimentally Induced Rhinosinusitis, Macedonian Journal of Medical Sciences, 3 (2) : 132 137 Zuridah, H., Fairuz, A.R.M., Zakri, Rahim, M.N.A., 2008, In vitro Antibacterial Activity of Nigella sativa Againts Staphylococcus aureus, Psedumonas aeruginosa, Klebsiella pneumonia, Escherichia coli, and Bacillus cereus, Asian Journal of Plant Sciences, 7 (3) : 331 333
22 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences Erni Johan, et al.
EXTRACTION OF ANTIOXIDANT FROM SHIITAKE MUSHROOM ( LENTINULA EDODES ) ~AN INITIAL STUDY TO FIND NEW ANTIOXIDANT SOURCE~
Erni Johan (*) , Deden Saprudin (**) , Zaenal Abidin (*) , Toru Yamamoto(*), Naoto Matsue (*) , Teruo Henmi (*) (*) Laboratory of Applied Chemistry for Environmental Industry, Faculty of Agriculture, Ehime University, 3 5 7 Tarumi, Matsuyama, Japan (**) Department of Chemistry, Faculty of Mathematics and Natural Sciences, Bogor Agricultural University, Indonesia Corresponding author: [email protected]
ABSTRACT
Shiitake mushroom (Lentinula edodes) is very popular food in Asia, especially in Japan, China, and Korea. It is cultivated in oak log or sawdust block (mushroom bed). We obtained extract from shiitake mushroom and mushroom bed, and tested their antioxidant activity. The result indicated that the extracts contain antioxidant materials which was proven by DPPH radical scavenging activity. IC 50 was 1.08mg/mL for the extract from mushroom cup, and 1.33mg/mL for that from mushroom stem. Instead of the mushroom, the mushroom bed also contained antioxidant as well as the mushroom. The extract of the mushroom can be applied for antioxidant source for medicine, while that of the mushroom bed may be applied as an additive substance for animal feed. Key words: shiitake mushroom, antioxidant activity, DPPH.
INTRODUCTION Shiitake mushroom ( Lentinula edodes ) is a popular food in Asia, especially China, Japan, and Korea. It is available in the market as fresh and dried vegetables. Shiitake attributes not only nutritional value, but It is also known as medical mushroom due to its potential for therapeutic applications, such as depressed immune function, cancer, environmental allergies, and so on (Bisen et al., 2010). Shiitake mushrooms have a high nutritional value and contain several bioactive compounds, including polysaccharides, dietary fiber, ergosterol, vitamin B1, B2, and C, folates, niacin and minerals (Jiang et. Al., 2010). Shiitake mushroom also contains vitamin D, especially after exposed under sunlight. Moreover, mushrooms contain various polyphenolic compounds recognized as excellent antioxidants (Ishikawa et al., 1984). In the past, shiitake was cultivated natural hardwood log, but recently it is also cultivated in sawdust block. The sawdust block is used only once for shiitake cultivation, and after mushroom harvesting, the block remains as by product. In the present study we extracted shiitake mushroom and the sawdust block after shiitake mushroom cultivation (by product), and investigated their antioxidant activity. We expected that not only the mushroom having antioxidant activity, but the remaining sawdust block is also contains antioxidant. The objective of the study is to find new source of natural antioxidant.
METHODOLOGY Materials Shiitake mushroom was purchased from supermarket, distributed by JA (Japan Agriculture cooperation) central of Ehime Prefecture, Japan. By product of Sawdust block (hereafter called as mushroom bed) was obtained from a shiitake farmer in Ozu city, Ehime Prefecture, Japan. DPPH (2,2 Diphenyl 1 picryl Hydrazil) was purchased from Sigma Aldrich, Inc., Japan. 11.8mg of DPPH was dissolved in 100mL of 99.9% ethanol (Kyowa Hakko Bio, CO., LTD.). MES [2 (N Morpholino) ethane sulfonic acid] buffer was prepared by dissolving 0.70g of MES (Nacalay Tesque, Inc., Japan) in 200mL of
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 23 Extraction Of Antioxidant……… distilled water, then pH was adjusted to 7.4 by adding 0.1M NaOH aqueous solution. 100ppm (+) catechin was made by dissolving 0.010g (+) catechin hydrate (Tokyo Chemical Industry, Co. LTD., Japan). This cathecin was used as positive control for DPPH radical scavenging analysis. Linoleic acid (Nacalay tesque, Inc., Japan) was used to test the peroxide value.
Extraction process Shiitake cup was cut into small pieces (about 3 5mm in size). Fifty grams of it was transferred into beaker glass, and was added with 150 mL of distilled water, then was heated at 80°C for 2hrs. Extract of the shiitake mushroom was separated by centrifugation at 3500 rpm for 10 minutes. Another 150 mL of distilled water was added again, then the heating and extract separation process was repeated. The extracts were collected, and the volume was adjusted to 300mL. Similar extraction procedure was also done for mushroom stem, with the ratio of stem and distilled water of 8g/100mL. Mushroom bed was cut into small pieces. Above extraction process was carried out for the mushroom bed with final solid/solution ratio of 50g/1000mL. We did different solid solution ratio, because the mushroom bed has very low bulk density. Water content of the mushroom and of the bed was measured by heating the materials at 70°C for 24h. The difference between fresh weight and dry weight is water content. Finally the extract was diluted so as to give same ratio of solid/solution (distilled water). Solid content of the extracts were determined, by evaporating 10 mL of each extract in evaporation dish.
DPPH radical scavenging activity DPPH radical scavenging activity of the extracts was determined by the method of Hu et al. (2009). Various amounts (0.05mL to 1mL), of the extracts were put in test tube glass, then ethanol was added to each sample in order to make total volume of 1.0mL. One mL of MES buffer was added, followed by addition of 1.0mL of DPPH. The sample was mixed well, then was allowed for 30 minutes. After 30 minutes the absorbance of the samples were measured at 522nm. Relative scavenging activity was calculated as follow:
(A0-A1) RSA (%) = X 100% A0 Where A0 is absorbance value of DPPH blank, A1 is absorbance value of sample.
Inhibition of Linoleic oxidation Inhibition of linoleic oxidation was assessed from peroxide value after oxidation of linoleic acid. To each 0.2g of linoleic acid was added with various amounts of the mushroom extract from 1mL to 5mL, then was heated at 60°C in an oven for 12hours, to accelerate oxidation process. After the oxidation, peroxide value was measured according to Europian Pharmacopoeia 5.0 (2005), with little modification of solvent from chloroform and glacial acetic acid (2:3) to cyclohexane and glacial acetic acid (1:1). A blank run was done without adding shiitake mushroom extract. Same experiment was carried out for the extract of mushroom bed. Lower peroxide value means greater inhibition of linoleic oxidation (greater antioxidant activity).
RESULTS AND DISCUSSIONS Water content of the samples was 90.20%, 40.14%, for Shiitake mushroom and mushroom bed, respectively. The mushroom bed extract was diluted so as to give same solid/solution ratio with that of shiitake mushroom (16.77g/L, based on dry weight). The solid content of the both extracts was not so different: 6.27mg/ml and 6.07mg/mL for mushroom extract and mushroom bed extract, respectively. Figure 1 shows DPPH radical scavenging activity of the samples.
24 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences
Fig. 1 DPPH radical scavenging activity of the extract samples
Fig. 2 Effect of mushroom and mushroom bed extract on peroxide value of linoleic acid after oxidation
The synthetic DPPH free radical is widely used to determine antioxidant activity. Absorption maximum at 517nm and its purple colour (Debnath et al., 2010). When it is mixed with antioxidant, the antioxidant compound will donate an electron to DPPH, so the purple colour will be changed to light purple or light yellow, depending upon the antioxidant content. Our measurement of DPPH absorbance showed that DPPH has absorption maximum at 522nm, so we measured the absorbance at 522nm. Relative scavenging activity (RSA) increases with increasing amounts of the extract. The RSA is greatest for mushroom bed, followed by shiitake cup and shiitake stem. The high RSA for shiitake mushroom bed may be not only come from shiitake, but also the bed itself (sawdust) contains antioxidant compounds.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 25 Extraction Of Antioxidant………
IC 50 is effective concentration of an antioxidant compound to inhibit half of free radical (RSA equal to 50%). IC 50 is a measure of the effectiveness of a compound in inhibiting biological or biochemical function. The IC50 of the extracts was 1.33mg/mL, 1.08mg/ml, and 0.30mg/mL for the shiitake cup, shiitake stem, and mushroom bed, respectively. The IC 50 of (+) cathecin was 4.16 g/mL It is expected that the shiitake mushroom contains ergothioneine as antioxidant compound. It is necessary to analyze ergothioneine content. Figure 2 shows effect of the mushroom and mushroom bed extract for inhibition of linoleic oxidation, assessed by peroxide value. Peroxide value is an empirical measurement of the amount of oxidation that has occurred to oils or fats that have occurred during storage. We used peroxide value to assess the inhibition of lipid oxidation by the mushroom extract. Peroxide value is the number that expresses in milliequivalents of active oxygen contained in 1000g of substance. Linoleic acid was used as representative of lipid. Linoleic acid is unsaturated lipid possessing two double bonds, at atom C number six and nine, so it is called as omega 6 ( 6). The principle of the experiment is that when unsaturated lipid is oxidized, peroxide is formed, then the formed peroxide is reduced by I (KI) to form I 2. Thereafter the I 2 is titrated with 0.01M NaS 2O2, with soluble starch as indicator.
The results indicated that without adding of mushroom extracts peroxide value of linoleic acid considerably increased from 19 to 1529 meq/kg after oxidation (heating at 60°C for 12h). However, with mushroom extract treatment the peroxide value is lower as compare to the blank (without extract treatment). This indicates that shiitake mushroom extract inhibits oxidation of linoleic acid. Inhibition degree increased with increasing amounts of extract, and reached optimum at 18.8 mg/0.2g linoleic acid. It seems that ergothioneine contained in the mushrooms play important role in inhibitions effect of oxidation of linoleic acid. Our molecular orbital calculation proved that deprotonation occurs at S H functional group in the structure of ergothioneine (calculation result is not shown here). The released proton inhibits oxidation of linoleic acid. In case of mushroom bed extract, small amount of extract is very effective to prevent oxidation of linoleic acid. By adding 6.1mg of the extract, the peroxide value decreased from 1529 meq/kg (blank) to 148 meq/kg. However, the degree of inhibition of linoleic oxidation decreased with increasing amounts of the extracts, may be due to mushroom bed extract contains many substances that give positive and negative effects to the oxidation process. Both shiitake mushroom and mushroom bed have antioxidant activities, so it is possible to apply this kind of extract for the human medicines and for additive substance for animal feed. Our previous project showed that mushroom bed extract gave inhibitory effect on oxidation of dark flesh of yellow tail fish.
26 The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences
CONCLUSION Shiitake mushroom extract and mushroom bed extracts contain antioxidant substance. The presence of the antioxidants was proven by DPPH radical scavenging activity and inhibition of linoleic oxidation.
REFERENCES Bisen, P.S., Baghel, R.K., Sanodiya, B.S., Thakur, G.S., Prasad, G.B.K.S. 2010. Lentinus edodes: A macrofungus with pharmacological activities. Current Medicinal Chemistry , 17, issue 22, 2419 2430. Debnath, T., Park, PJ. Deb Nath, N.C., Samad, N.B., Park, H.W., Lim, B.O., 2011. Antioxidant activity of Gardenia jasminodes Ellis fruit extracts, Food Chemistry , 128, 697 703. Hu, W., Shen, W., and Wang, M.H. (2009). Free radical scavenging activity and protective ability of methanolic extract from Duchenea indica against protein oxidation and DNA damage. Journal of food science & nutrition , 14, 277 282. Ishikawa, Y., Morimoto, K., Hamasaki, T., 1984. Falvoglaucin, a metabolite os Eurotium chevalieri, its antioxidation and synergism with tocopherol. J. Am. Soc. Hortic. Sci. , 129, 704 711. Jiang, T, Jahangir, M.M., Jiang, Z., Lu, X., and Ying, T., 2010. Influence of UV C treatment on antioxidant capacity, antioxidant enzyme activity and texture of postharvest shiitake ( Lentinus edodes ) mushrooms during storage. Postharvest Biology and Technology , 56, 209 215. Peroxide value, 2005, in Europian Pharmacopeia 5.0 . 2779.
The 2 nd International Conferencee on Pharmacy and Advance Pharmaceutical Sciences 27 Ade Arsianti
SYNTHESIS AND ANTICANCER ACTIVITY OF ANTIMYCIN
A3 ANALOGUE
Ade Arsianti 1,2 , Hiroki Tanimoto 1, Tsumoru Morimoto 1, Kiyomi Kakiuchi 1 1Graduate School of Materials Science, Nara Institute of Science and Technology (NAIST), 8916 5 Takayama cho, Ikoma, Nara, Japan 2Department of Medical Chemistry, Faculty of Medicine, University of Indonesia, Jalan Salemba Raya No. 4 Jakarta Pusat, Indonesia
ABSTRACT
Novel polyhydroxylated 18 membered analogue of antimycin A 3 was synthesized. Our synthesis was commenced with Boc L Threonine and was achieved by way of one pot homocoupling of ring closing metathesis reaction and Sharpless asymmetric dihydroxylation. The analogue exhibited a greater anticancer activity against HeLa cells, breast MDA MB 231 cells, and prostate PC 3 cells than that of the original antimycin A 3.
Key words: Synthesis, Anticancer, Antimycin A 3, Analogue
INTRODUCTION
Antimycin A 3, a nine membered dilactone which was isolated from Streptomyces sp . in 1949, is one of the most active agents that inhibits the electron transfer activity of ubiquinol cytochrome c oxidoreductase and prevents the growth of human cancer cells. Antimycin A 3 was also found to induce apoptosis of cancer cells by selectively killing the cancer cells that expressed high levels of anti 1 4 apoptotic Bcl 2 and Bcl XL . Studies on the structure activity relationship of antimycin A 3 by Miyoshi et al. in 1995 revealed that the hydroxyl group and 3 formamido group in the salicylyl moiety, as well as amide bond were necessary for anticancer activity. On the other hand, the nine membered dilactone 5 core in antimycin A 3 was found less effective for anticancer activity than 3 formamidosalicylyl moiety.
These facts indicated that, it is quite possible to carry out the synthesis of antimycin A 3 analogue by replacing the nine membered dilactone core with another active core that contributes to the improvement of its anticancer activity. Therefore, in this work, we focused on the synthesis of antimycin
A3 analogue ( 1), in which the nine membered dilactone core of antimycin A 3 was replaced by a polyhydroxylated 18 membered tetralactone core in our analogue (Figure 1). It has been reported that
18 membered ring of polylactone, such as respirantin which has the similar structure with antimycin A 3 showed a potent antitumor activity against human cancer cell lines with IC 50 range 0.00018 to 0.47